Pelagic phytoplankton community change‐points across nutrient gradients and in response to invasive mussels

Peer Reviewed http://deepblue.lib.umich.edu/bitstream/2027.42/136002/1/fwb12873_am.pdf http://deepblue.lib.umich.edu/bitstream/2027.42/136002/2/fwb12873.pdf

Bibliographic Details
Published in:Freshwater Biology
Main Authors: Kovalenko, Katya E., Reavie, Euan D., Allan, J. David, Cai, Meijun, Smith, Sigrid D. P., Johnson, Lucinda B.
Format: Article in Journal/Newspaper
Language:unknown
Published: Wiley Periodicals, Inc. 2017
Subjects:
water quality
algae
community thresholds
Dreissena
eutrophication
Ecology and Evolutionary Biology
Science
Arctic
Online Access:https://hdl.handle.net/2027.42/136002
https://doi.org/10.1111/fwb.12873
id ftumdeepblue:oai:deepblue.lib.umich.edu:2027.42/136002
record_format openpolar
institution Open Polar
collection University of Michigan: Deep Blue
op_collection_id ftumdeepblue
language unknown
topic water quality
algae
community thresholds
Dreissena
eutrophication
Ecology and Evolutionary Biology
Science
spellingShingle water quality
algae
community thresholds
Dreissena
eutrophication
Ecology and Evolutionary Biology
Science
Kovalenko, Katya E.
Reavie, Euan D.
Allan, J. David
Cai, Meijun
Smith, Sigrid D. P.
Johnson, Lucinda B.
Pelagic phytoplankton community change‐points across nutrient gradients and in response to invasive mussels
topic_facet water quality
algae
community thresholds
Dreissena
eutrophication
Ecology and Evolutionary Biology
Science
description Peer Reviewed http://deepblue.lib.umich.edu/bitstream/2027.42/136002/1/fwb12873_am.pdf http://deepblue.lib.umich.edu/bitstream/2027.42/136002/2/fwb12873.pdf
format Article in Journal/Newspaper
author Kovalenko, Katya E.
Reavie, Euan D.
Allan, J. David
Cai, Meijun
Smith, Sigrid D. P.
Johnson, Lucinda B.
author_facet Kovalenko, Katya E.
Reavie, Euan D.
Allan, J. David
Cai, Meijun
Smith, Sigrid D. P.
Johnson, Lucinda B.
author_sort Kovalenko, Katya E.
title Pelagic phytoplankton community change‐points across nutrient gradients and in response to invasive mussels
title_short Pelagic phytoplankton community change‐points across nutrient gradients and in response to invasive mussels
title_full Pelagic phytoplankton community change‐points across nutrient gradients and in response to invasive mussels
title_fullStr Pelagic phytoplankton community change‐points across nutrient gradients and in response to invasive mussels
title_full_unstemmed Pelagic phytoplankton community change‐points across nutrient gradients and in response to invasive mussels
title_sort pelagic phytoplankton community change‐points across nutrient gradients and in response to invasive mussels
publisher Wiley Periodicals, Inc.
publishDate 2017
url https://hdl.handle.net/2027.42/136002
https://doi.org/10.1111/fwb.12873
genre Arctic
genre_facet Arctic
op_relation Kovalenko, Katya E.; Reavie, Euan D.; Allan, J. David; Cai, Meijun; Smith, Sigrid D. P.; Johnson, Lucinda B. (2017). "Pelagic phytoplankton community change‐points across nutrient gradients and in response to invasive mussels." Freshwater Biology 62(2): 366-381.
0046-5070
1365-2427
https://hdl.handle.net/2027.42/136002
doi:10.1111/fwb.12873
Freshwater Biology
Reavie E.R. & Barbiero R.P. ( 2013 ) Recent changes in abundance and cell size of pelagic diatoms in the North American Great Lakes. Phytotaxa, 127, 150 – 162.
Racca J.M., Wild M., Birks H.J.B. & Prairie Y.T. ( 2003 ) Separating wheat from chaff: Diatom taxon selection using an artificial neural network pruning algorithm. Journal of Paleolimnology, 29, 123 – 133.
Reavie E.D., Barbiero R.P., Allinger L.E. & Warren G.J. ( 2014b ) Phytoplankton trends in the Great Lakes, 2001–2011. Journal of Great Lakes Research, 40, 618 – 639.
Reavie E.D., Heathcote A.J. & Shaw Chraïbi V.L. ( 2014a ) Laurentian Great Lakes phytoplankton and their water quality characteristics, including a diatom‐based model for paleoreconstruction of phosphorus. PLoS ONE, 9, e104705.
Rowe M.D., Obenour D.R., Nalepa T.F., Vanderploeg H.A., Yousef F. & Kerfoot W.C. ( 2015 ) Mapping the spatial distribution of the biomass and filter‐feeding effect of invasive dreissenid mussels on the winter‐spring phytoplankton bloom in Lake Michigan. Freshwater Biology, 60, 2270 – 2285.
Rühland K., Paterson A.M. & Smol J.P. ( 2008 ) Hemispheric‐scale patterns of climate‐related shifts in planktonic diatoms from North American and European lakes. Global Change Biology, 14, 2740 – 2754.
Saros J.E., Stone J.R., Pederson G.T., Slemmons K.E., Spanbauer T., Schliep A. et al. ( 2012 ) Climate‐induced changes in lake ecosystem structure inferred from coupled neo‐and paleoecological approaches. Ecology, 93, 2155 – 2164.
Saros J.E., Strock K.E., Mccue J., Hogan E. & Anderson N.J. ( 2013 ) Response of Cyclotella species to nutrients and incubation depth in Arctic lakes. Journal of Plankton Research, 36, 450 – 460.
Scheffer M. & Jeppesen E. ( 1998 ) Alternative stable states. In: The Structuring Role of Submerged Macrophytes in Lakes (Ed. Jeppesen, E., Sondergaard, M., Sondergaard, M. and Christofferson, K.), pp. 397 – 406. Volume 131 of the series Ecological Studies, Springer, New York.
Shaw Chraïbi V.L., Kireta A.R., Reavie E.D., Brown T.N. & Cai M. ( 2014 ) A paleolimnological assessment of human impacts on Lake Superior. Journal of Great Lakes Research, 40, 886 – 897.
Scheffer M., Rinaldi S., Gragnani A., Mur L.R. & van Nes E.H. ( 1997 ) On the dominance of filamentous cyanobacteria in shallow, turbid lakes. Ecology, 78, 272 – 282.
Small G.E., Sterner R.W. & Finlay J.C. ( 2014 ) An ecological network analysis of nitrogen cycling in the Laurentian Great Lakes. Ecological Modelling, 293, 150 – 160.
Smith S.D.P. ( 2014 ) The roles of nitrogen and phosphorus in regulating the dominance of floating and submerged aquatic plants in a field mesocosm experiment. Aquatic Botany, 119, 1 – 9.
Smith S.D.P., McIntyre P.B., Halpern B.S., Cooke R.M., Marino A.L., Boyer G.L. et al. ( 2015 ) Rating impacts in a multi‐stressor world: a quantitative assessment of 50 stressors affecting the Great Lakes. Ecological Applications, 25, 717 – 728.
Smucker N.J., Becker M., Detenbeck N.E. & Morrison A.C. ( 2013a ) Using algal metrics and biomass to evaluate multiple ways of defining concentration‐based nutrient criteria in streams and their ecological relevance. Ecological Indicators, 32, 51 – 61.
Smucker N.J., Detenbeck N.E. & Morrison A.C. ( 2013b ) Diatom responses to watershed development and potential moderating effects of near‐stream forest and wetland cover. Freshwater Science, 32, 230 – 249.
Sterner R.W., Anagnostou E., Brovold S., Bullerjahn G.S., Finlay J.C., Kumar S. et al. ( 2007 ) Increasing stoichiometric imbalance in North America’s largest lake: nitrification in Lake Superior. Geophysical Research Letters, 34, L10406.
Stoermer E.F. ( 1978 ) Phytoplankton assemblages as indicators of water quality in the Laurentian Great Lakes. Transactions of the American Microscopical Society, 97, 2 – 16.
Tilman D. ( 1982 ) Resource Competition and Community Structure. Princeton University Press, Princeton.
US Environmental Protection Agency (EPA) ( 2010 ) Sampling and Analytical Procedures for GLNPO’s Open Lake Water Quality Survey of the Great Lakes. http://www.epa.gov/glnpo/monitoring/sop/index.html.
Utermöhl H. ( 1958 ) Zur vervollkommnung der quantitativen phytoplankton methodik. Mitteilungen Internationale Vereinigung für Theoretische und Angewandte Limnologie, 9, 1 – 38.
Wang H.‐J., Wang H.‐J., Liang X.‐M. & Wu S.‐K. ( 2014 ) Total phosphorus thresholds for regime shifts are nearly equal in subtropical and temperate shallow lakes with moderate depths and areas. Freshwater Biology, 59, 1659 – 1671.
Watkins J.M., Dermott R., Lozano S.J., Mills E.L., Rudstam L.G. & Scharold J.V. ( 2007 ) Evidence for remote effects of dreissenid mussels on the amphipod Diporeia: analysis of Lake Ontario benthic surveys, 1972–2003. Journal of Great Lakes Research, 33, 642 – 657.
Wetzel R.G. ( 2001 ) Limnology: Lake and River Ecosystems, 3rd edn. Academic Press, San Diego.
Allan J.D., McIntyre P.B., Smith S.D.P., Halpern B.S., Boyer G.L., Buchsbaum A. et al. ( 2013 ) Joint analysis of stressors and ecosystem services to enhance restoration effectiveness. Proceedings of the National Academy of Sciences of the United States of America, 110, 372 – 377.
Baker M.E. & King R.S. ( 2010 ) A new method for detecting and interpreting biodiversity and ecological community thresholds. Methods in Ecology and Evolution, 1, 25 – 37.
Barbiero R.P., Rockwell D.C., Warren G.J. & Tuchman M.L. ( 2006 ) Changes in spring phytoplankton communities and nutrient dynamics in the eastern basin of Lake Erie since the invasion of Dreissena spp. Canadian Journal of Fisheries and Aquatic Science, 63, 1549 – 1563.
Bouwman L., Goldewijk K.K., Van der Hoek K.W., Beusen A.H.W., Van Vuuren D.P., Willems J. et al. ( 2013 ) Exploring global changes in nitrogen and phosphorus cycles in agriculture induced by livestock production over the 1900–2050 period. Proceedings of the National Academy of Sciences of the United States of America, 110, 20882 – 20887.
Bramburger A.J. & Reavie E.D. ( 2016 ) A comparison of phytoplankton communities of the deep chlorophyll layers and epilimnia of the Laurentian Great Lakes. Journal of Great Lakes Research, doi:10.1016/j.jglr.2016.07.004
Bruesewitz D.A., Tank J.L. & Bernot M.J. ( 2008 ) Delineating the effects of zebra mussels ( Dreissena polymorpha ) on N transformation rates using laboratory mesocosms. Journal of the North American Benthological Society, 27, 236 – 251.
Bunnell D.B., Barbiero R.P., Ludsin S.A., Madenjian C.P., Warren G.J., Dolan D.M. et al. ( 2014 ) Changing ecosystem dynamics in the Laurentian Great Lakes: bottom‐up and top‐down regulation. BioScience, 64, 26 – 39.
Canfield D.E., Glazer A.N. & Falkowski P.G. ( 2010 ) The evolution and future of Earth’s nitrogen cycle. Science, 330, 192 – 196.
Conley D.J., Paerl H.W., Howarth R.W., Boesch D.F., Seitzinger S.P., Havens K.E. et al. ( 2009 ) Controlling eutrophication: nitrogen and phosphorus. Science, 323, 1014 – 1015.
Cooper M.J., Costello G.M., Francoeur S.N. & Lamberti G.A. ( 2016 ) Nitrogen limitation of algal biofilms in coastal wetlands of Lakes Michigan and Huron. Freshwater Science, 35, 25 – 40.
Daily J.P., Hitt N.P., Smith D.R. & Snyder C.D. ( 2012 ) Experimental and environmental factors affect spurious detection of ecological thresholds. Ecology, 93, 17 – 23.
Danz N.P., Niemi G.J., Regal R.R., Hollenhorst T., Johnson L.B., Hanowski J.M. et al. ( 2007 ) Integrated gradients of anthropogenic stress in the U.S. Great Lakes basin. Environmental Management, 39, 631 – 647.
Kwandrans J., Eloranta P., Kawecka B. & Wojtan K. ( 1998 ) Use of benthic diatom communities to evaluate water quality in rivers of southern Poland. Journal of Applied Phycology, 10, 193 – 201.
DePinto J.V., Lam D., Auer M., Burns N., Chapra S., Charlton M. et al. ( 2006 ). Examination of the Status of the Goals of Annex 3 of the Great Lakes Water Quality Agreement. Technical Report http://www.epa.ohio.gov/portals/35/lakeerie/ptaskforce/Annex%203%20Technical%20Sub-group%20report-final%20_120706_.pdf.
Dermott R. & Geminiuc M. ( 2003 ) Changes in the benthic fauna of Lake Ontario 1990–1995, with local trends after 1981. In: State of Lake Ontario (SOLO)‐Past, Present, and Future (Ed. M. Munawar ), pp. 323 – 345. Ecovision World Monograph Series. Backhuys Publishers, Leiden.
Dufrêne M. & Legendre P. ( 1997 ) Species assemblages and indicator species: the need for a flexible asymmetrical approach. Ecological Monographs, 67, 345 – 366.
Elser J.J., Peace A.L., Kyle M., Wojewodzic M., McCrackin M.L., Andersen T. et al. ( 2010 ) Atmospheric nitrogen deposition is associated with elevated phosphorus limitation of lake zooplankton. Ecology Letters, 13, 1256 – 1261.
Evans M.A., Fahnenstiel G. & Scavia D. ( 2011 ) Incidental oligotrophication of North American Great Lakes. Environmental Science and Technology, 45, 3297 – 3303.
Fahnenstiel G.L., Pothoven S.A., Nalepa T.F., Vanderploeg H.A., Klarer D.M. & Scavia D. ( 2010 ) Recent changes in primary production and phytoplankton in the offshore region of southeastern Lake Michigan. Journal of Great Lakes Research, 36, 20 – 29.
Falkowski P.G., Fenchel T. & Delong E.F. ( 2008 ) The microbial engines that drive Earth’s biogeochemical cycles. Science, 320, 1034 – 1039.
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container_title Freshwater Biology
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spelling ftumdeepblue:oai:deepblue.lib.umich.edu:2027.42/136002 2023-08-20T04:03:12+02:00 Pelagic phytoplankton community change‐points across nutrient gradients and in response to invasive mussels Kovalenko, Katya E. Reavie, Euan D. Allan, J. David Cai, Meijun Smith, Sigrid D. P. Johnson, Lucinda B. 2017-02 application/pdf https://hdl.handle.net/2027.42/136002 https://doi.org/10.1111/fwb.12873 unknown Wiley Periodicals, Inc. Backhuys Publishers Kovalenko, Katya E.; Reavie, Euan D.; Allan, J. David; Cai, Meijun; Smith, Sigrid D. P.; Johnson, Lucinda B. (2017). "Pelagic phytoplankton community change‐points across nutrient gradients and in response to invasive mussels." Freshwater Biology 62(2): 366-381. 0046-5070 1365-2427 https://hdl.handle.net/2027.42/136002 doi:10.1111/fwb.12873 Freshwater Biology Reavie E.R. & Barbiero R.P. ( 2013 ) Recent changes in abundance and cell size of pelagic diatoms in the North American Great Lakes. Phytotaxa, 127, 150 – 162. Racca J.M., Wild M., Birks H.J.B. & Prairie Y.T. ( 2003 ) Separating wheat from chaff: Diatom taxon selection using an artificial neural network pruning algorithm. Journal of Paleolimnology, 29, 123 – 133. Reavie E.D., Barbiero R.P., Allinger L.E. & Warren G.J. ( 2014b ) Phytoplankton trends in the Great Lakes, 2001–2011. Journal of Great Lakes Research, 40, 618 – 639. Reavie E.D., Heathcote A.J. & Shaw Chraïbi V.L. ( 2014a ) Laurentian Great Lakes phytoplankton and their water quality characteristics, including a diatom‐based model for paleoreconstruction of phosphorus. PLoS ONE, 9, e104705. Rowe M.D., Obenour D.R., Nalepa T.F., Vanderploeg H.A., Yousef F. & Kerfoot W.C. ( 2015 ) Mapping the spatial distribution of the biomass and filter‐feeding effect of invasive dreissenid mussels on the winter‐spring phytoplankton bloom in Lake Michigan. Freshwater Biology, 60, 2270 – 2285. Rühland K., Paterson A.M. & Smol J.P. ( 2008 ) Hemispheric‐scale patterns of climate‐related shifts in planktonic diatoms from North American and European lakes. Global Change Biology, 14, 2740 – 2754. Saros J.E., Stone J.R., Pederson G.T., Slemmons K.E., Spanbauer T., Schliep A. et al. ( 2012 ) Climate‐induced changes in lake ecosystem structure inferred from coupled neo‐and paleoecological approaches. Ecology, 93, 2155 – 2164. Saros J.E., Strock K.E., Mccue J., Hogan E. & Anderson N.J. ( 2013 ) Response of Cyclotella species to nutrients and incubation depth in Arctic lakes. Journal of Plankton Research, 36, 450 – 460. Scheffer M. & Jeppesen E. ( 1998 ) Alternative stable states. In: The Structuring Role of Submerged Macrophytes in Lakes (Ed. Jeppesen, E., Sondergaard, M., Sondergaard, M. and Christofferson, K.), pp. 397 – 406. Volume 131 of the series Ecological Studies, Springer, New York. Shaw Chraïbi V.L., Kireta A.R., Reavie E.D., Brown T.N. & Cai M. ( 2014 ) A paleolimnological assessment of human impacts on Lake Superior. Journal of Great Lakes Research, 40, 886 – 897. Scheffer M., Rinaldi S., Gragnani A., Mur L.R. & van Nes E.H. ( 1997 ) On the dominance of filamentous cyanobacteria in shallow, turbid lakes. Ecology, 78, 272 – 282. Small G.E., Sterner R.W. & Finlay J.C. ( 2014 ) An ecological network analysis of nitrogen cycling in the Laurentian Great Lakes. Ecological Modelling, 293, 150 – 160. Smith S.D.P. ( 2014 ) The roles of nitrogen and phosphorus in regulating the dominance of floating and submerged aquatic plants in a field mesocosm experiment. Aquatic Botany, 119, 1 – 9. Smith S.D.P., McIntyre P.B., Halpern B.S., Cooke R.M., Marino A.L., Boyer G.L. et al. ( 2015 ) Rating impacts in a multi‐stressor world: a quantitative assessment of 50 stressors affecting the Great Lakes. Ecological Applications, 25, 717 – 728. Smucker N.J., Becker M., Detenbeck N.E. & Morrison A.C. ( 2013a ) Using algal metrics and biomass to evaluate multiple ways of defining concentration‐based nutrient criteria in streams and their ecological relevance. Ecological Indicators, 32, 51 – 61. Smucker N.J., Detenbeck N.E. & Morrison A.C. ( 2013b ) Diatom responses to watershed development and potential moderating effects of near‐stream forest and wetland cover. Freshwater Science, 32, 230 – 249. Sterner R.W., Anagnostou E., Brovold S., Bullerjahn G.S., Finlay J.C., Kumar S. et al. ( 2007 ) Increasing stoichiometric imbalance in North America’s largest lake: nitrification in Lake Superior. Geophysical Research Letters, 34, L10406. Stoermer E.F. ( 1978 ) Phytoplankton assemblages as indicators of water quality in the Laurentian Great Lakes. Transactions of the American Microscopical Society, 97, 2 – 16. Tilman D. ( 1982 ) Resource Competition and Community Structure. Princeton University Press, Princeton. US Environmental Protection Agency (EPA) ( 2010 ) Sampling and Analytical Procedures for GLNPO’s Open Lake Water Quality Survey of the Great Lakes. http://www.epa.gov/glnpo/monitoring/sop/index.html. Utermöhl H. ( 1958 ) Zur vervollkommnung der quantitativen phytoplankton methodik. Mitteilungen Internationale Vereinigung für Theoretische und Angewandte Limnologie, 9, 1 – 38. Wang H.‐J., Wang H.‐J., Liang X.‐M. & Wu S.‐K. ( 2014 ) Total phosphorus thresholds for regime shifts are nearly equal in subtropical and temperate shallow lakes with moderate depths and areas. Freshwater Biology, 59, 1659 – 1671. Watkins J.M., Dermott R., Lozano S.J., Mills E.L., Rudstam L.G. & Scharold J.V. ( 2007 ) Evidence for remote effects of dreissenid mussels on the amphipod Diporeia: analysis of Lake Ontario benthic surveys, 1972–2003. Journal of Great Lakes Research, 33, 642 – 657. Wetzel R.G. ( 2001 ) Limnology: Lake and River Ecosystems, 3rd edn. Academic Press, San Diego. Allan J.D., McIntyre P.B., Smith S.D.P., Halpern B.S., Boyer G.L., Buchsbaum A. et al. ( 2013 ) Joint analysis of stressors and ecosystem services to enhance restoration effectiveness. Proceedings of the National Academy of Sciences of the United States of America, 110, 372 – 377. Baker M.E. & King R.S. ( 2010 ) A new method for detecting and interpreting biodiversity and ecological community thresholds. Methods in Ecology and Evolution, 1, 25 – 37. Barbiero R.P., Rockwell D.C., Warren G.J. & Tuchman M.L. ( 2006 ) Changes in spring phytoplankton communities and nutrient dynamics in the eastern basin of Lake Erie since the invasion of Dreissena spp. Canadian Journal of Fisheries and Aquatic Science, 63, 1549 – 1563. Bouwman L., Goldewijk K.K., Van der Hoek K.W., Beusen A.H.W., Van Vuuren D.P., Willems J. et al. ( 2013 ) Exploring global changes in nitrogen and phosphorus cycles in agriculture induced by livestock production over the 1900–2050 period. Proceedings of the National Academy of Sciences of the United States of America, 110, 20882 – 20887. Bramburger A.J. & Reavie E.D. ( 2016 ) A comparison of phytoplankton communities of the deep chlorophyll layers and epilimnia of the Laurentian Great Lakes. Journal of Great Lakes Research, doi:10.1016/j.jglr.2016.07.004 Bruesewitz D.A., Tank J.L. & Bernot M.J. ( 2008 ) Delineating the effects of zebra mussels ( Dreissena polymorpha ) on N transformation rates using laboratory mesocosms. Journal of the North American Benthological Society, 27, 236 – 251. Bunnell D.B., Barbiero R.P., Ludsin S.A., Madenjian C.P., Warren G.J., Dolan D.M. et al. ( 2014 ) Changing ecosystem dynamics in the Laurentian Great Lakes: bottom‐up and top‐down regulation. BioScience, 64, 26 – 39. Canfield D.E., Glazer A.N. & Falkowski P.G. ( 2010 ) The evolution and future of Earth’s nitrogen cycle. Science, 330, 192 – 196. Conley D.J., Paerl H.W., Howarth R.W., Boesch D.F., Seitzinger S.P., Havens K.E. et al. ( 2009 ) Controlling eutrophication: nitrogen and phosphorus. Science, 323, 1014 – 1015. Cooper M.J., Costello G.M., Francoeur S.N. & Lamberti G.A. ( 2016 ) Nitrogen limitation of algal biofilms in coastal wetlands of Lakes Michigan and Huron. Freshwater Science, 35, 25 – 40. Daily J.P., Hitt N.P., Smith D.R. & Snyder C.D. ( 2012 ) Experimental and environmental factors affect spurious detection of ecological thresholds. Ecology, 93, 17 – 23. Danz N.P., Niemi G.J., Regal R.R., Hollenhorst T., Johnson L.B., Hanowski J.M. et al. ( 2007 ) Integrated gradients of anthropogenic stress in the U.S. Great Lakes basin. Environmental Management, 39, 631 – 647. Kwandrans J., Eloranta P., Kawecka B. & Wojtan K. ( 1998 ) Use of benthic diatom communities to evaluate water quality in rivers of southern Poland. Journal of Applied Phycology, 10, 193 – 201. DePinto J.V., Lam D., Auer M., Burns N., Chapra S., Charlton M. et al. ( 2006 ). Examination of the Status of the Goals of Annex 3 of the Great Lakes Water Quality Agreement. Technical Report http://www.epa.ohio.gov/portals/35/lakeerie/ptaskforce/Annex%203%20Technical%20Sub-group%20report-final%20_120706_.pdf. Dermott R. & Geminiuc M. ( 2003 ) Changes in the benthic fauna of Lake Ontario 1990–1995, with local trends after 1981. In: State of Lake Ontario (SOLO)‐Past, Present, and Future (Ed. M. Munawar ), pp. 323 – 345. Ecovision World Monograph Series. Backhuys Publishers, Leiden. Dufrêne M. & Legendre P. ( 1997 ) Species assemblages and indicator species: the need for a flexible asymmetrical approach. Ecological Monographs, 67, 345 – 366. Elser J.J., Peace A.L., Kyle M., Wojewodzic M., McCrackin M.L., Andersen T. et al. ( 2010 ) Atmospheric nitrogen deposition is associated with elevated phosphorus limitation of lake zooplankton. Ecology Letters, 13, 1256 – 1261. Evans M.A., Fahnenstiel G. & Scavia D. ( 2011 ) Incidental oligotrophication of North American Great Lakes. Environmental Science and Technology, 45, 3297 – 3303. Fahnenstiel G.L., Pothoven S.A., Nalepa T.F., Vanderploeg H.A., Klarer D.M. & Scavia D. ( 2010 ) Recent changes in primary production and phytoplankton in the offshore region of southeastern Lake Michigan. Journal of Great Lakes Research, 36, 20 – 29. Falkowski P.G., Fenchel T. & Delong E.F. ( 2008 ) The microbial engines that drive Earth’s biogeochemical cycles. Science, 320, 1034 – 1039. IndexNoFollow water quality algae community thresholds Dreissena eutrophication Ecology and Evolutionary Biology Science Article 2017 ftumdeepblue https://doi.org/10.1111/fwb.12873 2023-07-31T20:37:14Z Peer Reviewed http://deepblue.lib.umich.edu/bitstream/2027.42/136002/1/fwb12873_am.pdf http://deepblue.lib.umich.edu/bitstream/2027.42/136002/2/fwb12873.pdf Article in Journal/Newspaper Arctic University of Michigan: Deep Blue Freshwater Biology 62 2 366 381

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